#![allow(clippy::await_holding_refcell_ref, clippy::await_holding_lock)]
use std::any::TypeId;
use std::cell::{Ref, RefCell, RefMut};
use std::marker::PhantomData;
use std::os::raw::c_int;
use std::string::String as StdString;
use std::sync::{Arc, Mutex, RwLock};
use crate::error::{Error, Result};
use crate::lua::Lua;
use crate::types::{Callback, MaybeSend};
use crate::userdata::{
AnyUserData, MetaMethod, UserData, UserDataCell, UserDataFields, UserDataMethods,
};
use crate::util::{get_userdata, short_type_name};
use crate::value::{FromLua, FromLuaMulti, IntoLua, IntoLuaMulti, Value};
#[cfg(not(feature = "send"))]
use std::rc::Rc;
#[cfg(feature = "async")]
use {crate::types::AsyncCallback, futures_util::future, std::future::Future};
pub struct UserDataRegistry<'lua, T: 'static> {
pub(crate) fields: Vec<(String, Callback<'lua, 'static>)>,
pub(crate) field_getters: Vec<(String, Callback<'lua, 'static>)>,
pub(crate) field_setters: Vec<(String, Callback<'lua, 'static>)>,
pub(crate) meta_fields: Vec<(String, Callback<'lua, 'static>)>,
pub(crate) methods: Vec<(String, Callback<'lua, 'static>)>,
#[cfg(feature = "async")]
pub(crate) async_methods: Vec<(String, AsyncCallback<'lua, 'static>)>,
pub(crate) meta_methods: Vec<(String, Callback<'lua, 'static>)>,
#[cfg(feature = "async")]
pub(crate) async_meta_methods: Vec<(String, AsyncCallback<'lua, 'static>)>,
_type: PhantomData<T>,
}
impl<'lua, T: 'static> UserDataRegistry<'lua, T> {
pub(crate) const fn new() -> Self {
UserDataRegistry {
fields: Vec::new(),
field_getters: Vec::new(),
field_setters: Vec::new(),
meta_fields: Vec::new(),
methods: Vec::new(),
#[cfg(feature = "async")]
async_methods: Vec::new(),
meta_methods: Vec::new(),
#[cfg(feature = "async")]
async_meta_methods: Vec::new(),
_type: PhantomData,
}
}
fn box_method<M, A, R>(name: &str, method: M) -> Callback<'lua, 'static>
where
M: Fn(&'lua Lua, &T, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = get_function_name::<T>(name);
macro_rules! try_self_arg {
($res:expr) => {
$res.map_err(|err| Error::bad_self_argument(&name, err))?
};
($res:expr, $err:expr) => {
$res.map_err(|_| Error::bad_self_argument(&name, $err))?
};
}
Box::new(move |lua, nargs| unsafe {
if nargs == 0 {
let err = Error::from_lua_conversion("missing argument", "userdata", None);
try_self_arg!(Err(err));
}
let state = lua.state();
let index = ffi::lua_absindex(state, -nargs);
let args = A::from_stack_args(nargs - 1, 2, Some(&name), lua);
match try_self_arg!(lua.get_userdata_type_id(index)) {
Some(id) if id == TypeId::of::<T>() => {
let ud = try_self_arg!(get_userdata_ref::<T>(state, index));
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<T>>() => {
let ud = try_self_arg!(get_userdata_ref::<Rc<T>>(state, index));
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<RefCell<T>>>() => {
let ud = try_self_arg!(get_userdata_ref::<Rc<RefCell<T>>>(state, index));
let ud = try_self_arg!(ud.try_borrow(), Error::UserDataBorrowError);
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<T>>() => {
let ud = try_self_arg!(get_userdata_ref::<Arc<T>>(state, index));
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<Mutex<T>>>() => {
let ud = try_self_arg!(get_userdata_ref::<Arc<Mutex<T>>>(state, index));
let ud = try_self_arg!(ud.try_lock(), Error::UserDataBorrowError);
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::Mutex<T>>>() => {
let ud = get_userdata_ref::<Arc<parking_lot::Mutex<T>>>(state, index);
let ud = try_self_arg!(ud);
let ud = try_self_arg!(ud.try_lock().ok_or(Error::UserDataBorrowError));
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<RwLock<T>>>() => {
let ud = try_self_arg!(get_userdata_ref::<Arc<RwLock<T>>>(state, index));
let ud = try_self_arg!(ud.try_read(), Error::UserDataBorrowError);
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::RwLock<T>>>() => {
let ud = get_userdata_ref::<Arc<parking_lot::RwLock<T>>>(state, index);
let ud = try_self_arg!(ud);
let ud = try_self_arg!(ud.try_read().ok_or(Error::UserDataBorrowError));
method(lua, &ud, args?)?.push_into_stack_multi(lua)
}
_ => Err(Error::bad_self_argument(&name, Error::UserDataTypeMismatch)),
}
})
}
fn box_method_mut<M, A, R>(name: &str, method: M) -> Callback<'lua, 'static>
where
M: FnMut(&'lua Lua, &mut T, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = get_function_name::<T>(name);
macro_rules! try_self_arg {
($res:expr) => {
$res.map_err(|err| Error::bad_self_argument(&name, err))?
};
($res:expr, $err:expr) => {
$res.map_err(|_| Error::bad_self_argument(&name, $err))?
};
}
let method = RefCell::new(method);
Box::new(move |lua, nargs| unsafe {
let mut method = method
.try_borrow_mut()
.map_err(|_| Error::RecursiveMutCallback)?;
if nargs == 0 {
let err = Error::from_lua_conversion("missing argument", "userdata", None);
try_self_arg!(Err(err));
}
let state = lua.state();
let index = ffi::lua_absindex(state, -nargs);
let args = A::from_stack_args(nargs - 1, 2, Some(&name), lua);
match try_self_arg!(lua.get_userdata_type_id(index)) {
Some(id) if id == TypeId::of::<T>() => {
let mut ud = try_self_arg!(get_userdata_mut::<T>(state, index));
method(lua, &mut ud, args?)?.push_into_stack_multi(lua)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<T>>() => Err(Error::UserDataBorrowMutError),
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<RefCell<T>>>() => {
let ud = try_self_arg!(get_userdata_mut::<Rc<RefCell<T>>>(state, index));
let mut ud = try_self_arg!(ud.try_borrow_mut(), Error::UserDataBorrowMutError);
method(lua, &mut ud, args?)?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<T>>() => Err(Error::UserDataBorrowMutError),
Some(id) if id == TypeId::of::<Arc<Mutex<T>>>() => {
let ud = try_self_arg!(get_userdata_mut::<Arc<Mutex<T>>>(state, index));
let mut ud = try_self_arg!(ud.try_lock(), Error::UserDataBorrowMutError);
method(lua, &mut ud, args?)?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::Mutex<T>>>() => {
let ud = get_userdata_mut::<Arc<parking_lot::Mutex<T>>>(state, index);
let ud = try_self_arg!(ud);
let mut ud = try_self_arg!(ud.try_lock().ok_or(Error::UserDataBorrowMutError));
method(lua, &mut ud, args?)?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<RwLock<T>>>() => {
let ud = try_self_arg!(get_userdata_mut::<Arc<RwLock<T>>>(state, index));
let mut ud = try_self_arg!(ud.try_write(), Error::UserDataBorrowMutError);
method(lua, &mut ud, args?)?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::RwLock<T>>>() => {
let ud = get_userdata_mut::<Arc<parking_lot::RwLock<T>>>(state, index);
let ud = try_self_arg!(ud);
let mut ud = try_self_arg!(ud.try_write().ok_or(Error::UserDataBorrowMutError));
method(lua, &mut ud, args?)?.push_into_stack_multi(lua)
}
_ => Err(Error::bad_self_argument(&name, Error::UserDataTypeMismatch)),
}
})
}
#[cfg(feature = "async")]
fn box_async_method<'s, M, A, MR, R>(name: &str, method: M) -> AsyncCallback<'lua, 'static>
where
'lua: 's,
T: 'static,
M: Fn(&'lua Lua, &'s T, A) -> MR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
MR: Future<Output = Result<R>> + 's,
R: IntoLuaMulti<'lua>,
{
let name = Arc::new(get_function_name::<T>(name));
let method = Arc::new(method);
Box::new(move |lua, mut args| unsafe {
let name = name.clone();
let method = method.clone();
macro_rules! try_self_arg {
($res:expr) => {
$res.map_err(|err| Error::bad_self_argument(&name, err))?
};
($res:expr, $err:expr) => {
$res.map_err(|_| Error::bad_self_argument(&name, $err))?
};
}
Box::pin(async move {
let this = args.pop_front().ok_or_else(|| {
Error::from_lua_conversion("missing argument", "userdata", None)
});
let this = try_self_arg!(AnyUserData::from_lua(try_self_arg!(this), lua));
let args = A::from_lua_args(args, 2, Some(&name), lua);
let (ref_thread, index) = (lua.ref_thread(), this.0.index);
match try_self_arg!(this.type_id()) {
Some(id) if id == TypeId::of::<T>() => {
let ud = try_self_arg!(get_userdata_ref::<T>(ref_thread, index));
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<T>>() => {
let ud = try_self_arg!(get_userdata_ref::<Rc<T>>(ref_thread, index));
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<RefCell<T>>>() => {
let ud =
try_self_arg!(get_userdata_ref::<Rc<RefCell<T>>>(ref_thread, index));
let ud = try_self_arg!(ud.try_borrow(), Error::UserDataBorrowError);
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<T>>() => {
let ud = try_self_arg!(get_userdata_ref::<Arc<T>>(ref_thread, index));
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<Mutex<T>>>() => {
let ud =
try_self_arg!(get_userdata_ref::<Arc<Mutex<T>>>(ref_thread, index));
let ud = try_self_arg!(ud.try_lock(), Error::UserDataBorrowError);
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::Mutex<T>>>() => {
let ud = get_userdata_ref::<Arc<parking_lot::Mutex<T>>>(ref_thread, index);
let ud = try_self_arg!(ud);
let ud = try_self_arg!(ud.try_lock().ok_or(Error::UserDataBorrowError));
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<RwLock<T>>>() => {
let ud =
try_self_arg!(get_userdata_ref::<Arc<RwLock<T>>>(ref_thread, index));
let ud = try_self_arg!(ud.try_read(), Error::UserDataBorrowError);
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::RwLock<T>>>() => {
let ud = get_userdata_ref::<Arc<parking_lot::RwLock<T>>>(ref_thread, index);
let ud = try_self_arg!(ud);
let ud = try_self_arg!(ud.try_read().ok_or(Error::UserDataBorrowError));
let ud = std::mem::transmute::<&T, &T>(&ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
_ => Err(Error::bad_self_argument(&name, Error::UserDataTypeMismatch)),
}
})
})
}
#[cfg(feature = "async")]
fn box_async_method_mut<'s, M, A, MR, R>(name: &str, method: M) -> AsyncCallback<'lua, 'static>
where
'lua: 's,
T: 'static,
M: Fn(&'lua Lua, &'s mut T, A) -> MR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
MR: Future<Output = Result<R>> + 's,
R: IntoLuaMulti<'lua>,
{
let name = Arc::new(get_function_name::<T>(name));
let method = Arc::new(method);
Box::new(move |lua, mut args| unsafe {
let name = name.clone();
let method = method.clone();
macro_rules! try_self_arg {
($res:expr) => {
$res.map_err(|err| Error::bad_self_argument(&name, err))?
};
($res:expr, $err:expr) => {
$res.map_err(|_| Error::bad_self_argument(&name, $err))?
};
}
Box::pin(async move {
let this = args.pop_front().ok_or_else(|| {
Error::from_lua_conversion("missing argument", "userdata", None)
});
let this = try_self_arg!(AnyUserData::from_lua(try_self_arg!(this), lua));
let args = A::from_lua_args(args, 2, Some(&name), lua);
let (ref_thread, index) = (lua.ref_thread(), this.0.index);
match try_self_arg!(this.type_id()) {
Some(id) if id == TypeId::of::<T>() => {
let mut ud = try_self_arg!(get_userdata_mut::<T>(ref_thread, index));
let ud = std::mem::transmute::<&mut T, &mut T>(&mut ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<RefCell<T>>>() => {
Err(Error::UserDataBorrowMutError)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Rc<RefCell<T>>>() => {
let ud =
try_self_arg!(get_userdata_mut::<Rc<RefCell<T>>>(ref_thread, index));
let mut ud =
try_self_arg!(ud.try_borrow_mut(), Error::UserDataBorrowMutError);
let ud = std::mem::transmute::<&mut T, &mut T>(&mut ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(not(feature = "send"))]
Some(id) if id == TypeId::of::<Arc<T>>() => Err(Error::UserDataBorrowMutError),
Some(id) if id == TypeId::of::<Arc<Mutex<T>>>() => {
let ud =
try_self_arg!(get_userdata_mut::<Arc<Mutex<T>>>(ref_thread, index));
let mut ud = try_self_arg!(ud.try_lock(), Error::UserDataBorrowMutError);
let ud = std::mem::transmute::<&mut T, &mut T>(&mut ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::Mutex<T>>>() => {
let ud = get_userdata_mut::<Arc<parking_lot::Mutex<T>>>(ref_thread, index);
let ud = try_self_arg!(ud);
let mut ud =
try_self_arg!(ud.try_lock().ok_or(Error::UserDataBorrowMutError));
let ud = std::mem::transmute::<&mut T, &mut T>(&mut ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
Some(id) if id == TypeId::of::<Arc<RwLock<T>>>() => {
let ud =
try_self_arg!(get_userdata_mut::<Arc<RwLock<T>>>(ref_thread, index));
let mut ud = try_self_arg!(ud.try_write(), Error::UserDataBorrowMutError);
let ud = std::mem::transmute::<&mut T, &mut T>(&mut ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
#[cfg(feature = "parking_lot")]
Some(id) if id == TypeId::of::<Arc<parking_lot::RwLock<T>>>() => {
let ud = get_userdata_mut::<Arc<parking_lot::RwLock<T>>>(ref_thread, index);
let ud = try_self_arg!(ud);
let mut ud =
try_self_arg!(ud.try_write().ok_or(Error::UserDataBorrowMutError));
let ud = std::mem::transmute::<&mut T, &mut T>(&mut ud);
method(lua, ud, args?).await?.push_into_stack_multi(lua)
}
_ => Err(Error::bad_self_argument(&name, Error::UserDataTypeMismatch)),
}
})
})
}
fn box_function<F, A, R>(name: &str, function: F) -> Callback<'lua, 'static>
where
F: Fn(&'lua Lua, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = get_function_name::<T>(name);
Box::new(move |lua, nargs| unsafe {
let args = A::from_stack_args(nargs, 1, Some(&name), lua)?;
function(lua, args)?.push_into_stack_multi(lua)
})
}
fn box_function_mut<F, A, R>(name: &str, function: F) -> Callback<'lua, 'static>
where
F: FnMut(&'lua Lua, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = get_function_name::<T>(name);
let function = RefCell::new(function);
Box::new(move |lua, nargs| unsafe {
let function = &mut *function
.try_borrow_mut()
.map_err(|_| Error::RecursiveMutCallback)?;
let args = A::from_stack_args(nargs, 1, Some(&name), lua)?;
function(lua, args)?.push_into_stack_multi(lua)
})
}
#[cfg(feature = "async")]
fn box_async_function<F, A, FR, R>(name: &str, function: F) -> AsyncCallback<'lua, 'static>
where
F: Fn(&'lua Lua, A) -> FR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
FR: Future<Output = Result<R>> + 'lua,
R: IntoLuaMulti<'lua>,
{
let name = get_function_name::<T>(name);
Box::new(move |lua, args| unsafe {
let args = match A::from_lua_args(args, 1, Some(&name), lua) {
Ok(args) => args,
Err(e) => return Box::pin(future::err(e)),
};
let fut = function(lua, args);
Box::pin(async move { fut.await?.push_into_stack_multi(lua) })
})
}
pub(crate) fn check_meta_field<V>(lua: &'lua Lua, name: &str, value: V) -> Result<Value<'lua>>
where
V: IntoLua<'lua>,
{
let value = value.into_lua(lua)?;
if name == MetaMethod::Index || name == MetaMethod::NewIndex {
match value {
Value::Nil | Value::Table(_) | Value::Function(_) => {}
_ => {
return Err(Error::MetaMethodTypeError {
method: name.to_string(),
type_name: value.type_name(),
message: Some("expected nil, table or function".to_string()),
})
}
}
}
value.into_lua(lua)
}
}
fn get_function_name<T>(name: &str) -> StdString {
format!("{}.{name}", short_type_name::<T>())
}
impl<'lua, T: 'static> UserDataFields<'lua, T> for UserDataRegistry<'lua, T> {
fn add_field<V>(&mut self, name: impl AsRef<str>, value: V)
where
V: IntoLua<'lua> + Clone + 'static,
{
let name = name.as_ref().to_string();
self.fields.push((
name,
Box::new(move |lua, _| unsafe { value.clone().push_into_stack_multi(lua) }),
));
}
fn add_field_method_get<M, R>(&mut self, name: impl AsRef<str>, method: M)
where
M: Fn(&'lua Lua, &T) -> Result<R> + MaybeSend + 'static,
R: IntoLua<'lua>,
{
let name = name.as_ref();
let method = Self::box_method(name, move |lua, data, ()| method(lua, data));
self.field_getters.push((name.into(), method));
}
fn add_field_method_set<M, A>(&mut self, name: impl AsRef<str>, method: M)
where
M: FnMut(&'lua Lua, &mut T, A) -> Result<()> + MaybeSend + 'static,
A: FromLua<'lua>,
{
let name = name.as_ref();
let method = Self::box_method_mut(name, method);
self.field_setters.push((name.into(), method));
}
fn add_field_function_get<F, R>(&mut self, name: impl AsRef<str>, function: F)
where
F: Fn(&'lua Lua, AnyUserData<'lua>) -> Result<R> + MaybeSend + 'static,
R: IntoLua<'lua>,
{
let name = name.as_ref();
let func = Self::box_function(name, function);
self.field_getters.push((name.into(), func));
}
fn add_field_function_set<F, A>(&mut self, name: impl AsRef<str>, mut function: F)
where
F: FnMut(&'lua Lua, AnyUserData<'lua>, A) -> Result<()> + MaybeSend + 'static,
A: FromLua<'lua>,
{
let name = name.as_ref();
let func = Self::box_function_mut(name, move |lua, (data, val)| function(lua, data, val));
self.field_setters.push((name.into(), func));
}
fn add_meta_field<V>(&mut self, name: impl AsRef<str>, value: V)
where
V: IntoLua<'lua> + Clone + 'static,
{
let name = name.as_ref().to_string();
let name2 = name.clone();
self.meta_fields.push((
name,
Box::new(move |lua, _| unsafe {
Self::check_meta_field(lua, &name2, value.clone())?.push_into_stack_multi(lua)
}),
));
}
fn add_meta_field_with<F, R>(&mut self, name: impl AsRef<str>, f: F)
where
F: Fn(&'lua Lua) -> Result<R> + MaybeSend + 'static,
R: IntoLua<'lua>,
{
let name = name.as_ref().to_string();
let name2 = name.clone();
self.meta_fields.push((
name,
Box::new(move |lua, _| unsafe {
Self::check_meta_field(lua, &name2, f(lua)?)?.push_into_stack_multi(lua)
}),
));
}
fn append_fields_from<S>(&mut self, other: UserDataRegistry<'lua, S>) {
self.fields.extend(other.fields);
self.field_getters.extend(other.field_getters);
self.field_setters.extend(other.field_setters);
self.meta_fields.extend(other.meta_fields);
}
}
impl<'lua, T: 'static> UserDataMethods<'lua, T> for UserDataRegistry<'lua, T> {
fn add_method<M, A, R>(&mut self, name: impl AsRef<str>, method: M)
where
M: Fn(&'lua Lua, &T, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.methods
.push((name.into(), Self::box_method(name, method)));
}
fn add_method_mut<M, A, R>(&mut self, name: impl AsRef<str>, method: M)
where
M: FnMut(&'lua Lua, &mut T, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.methods
.push((name.into(), Self::box_method_mut(name, method)));
}
#[cfg(feature = "async")]
fn add_async_method<'s, M, A, MR, R>(&mut self, name: impl AsRef<str>, method: M)
where
'lua: 's,
T: 'static,
M: Fn(&'lua Lua, &'s T, A) -> MR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
MR: Future<Output = Result<R>> + 's,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.async_methods
.push((name.into(), Self::box_async_method(name, method)));
}
#[cfg(feature = "async")]
fn add_async_method_mut<'s, M, A, MR, R>(&mut self, name: impl AsRef<str>, method: M)
where
'lua: 's,
T: 'static,
M: Fn(&'lua Lua, &'s mut T, A) -> MR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
MR: Future<Output = Result<R>> + 's,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.async_methods
.push((name.into(), Self::box_async_method_mut(name, method)));
}
fn add_function<F, A, R>(&mut self, name: impl AsRef<str>, function: F)
where
F: Fn(&'lua Lua, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.methods
.push((name.into(), Self::box_function(name, function)));
}
fn add_function_mut<F, A, R>(&mut self, name: impl AsRef<str>, function: F)
where
F: FnMut(&'lua Lua, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.methods
.push((name.into(), Self::box_function_mut(name, function)));
}
#[cfg(feature = "async")]
fn add_async_function<F, A, FR, R>(&mut self, name: impl AsRef<str>, function: F)
where
F: Fn(&'lua Lua, A) -> FR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
FR: Future<Output = Result<R>> + 'lua,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.async_methods
.push((name.into(), Self::box_async_function(name, function)));
}
fn add_meta_method<M, A, R>(&mut self, name: impl AsRef<str>, method: M)
where
M: Fn(&'lua Lua, &T, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.meta_methods
.push((name.into(), Self::box_method(name, method)));
}
fn add_meta_method_mut<M, A, R>(&mut self, name: impl AsRef<str>, method: M)
where
M: FnMut(&'lua Lua, &mut T, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.meta_methods
.push((name.into(), Self::box_method_mut(name, method)));
}
#[cfg(all(feature = "async", not(any(feature = "lua51", feature = "luau"))))]
fn add_async_meta_method<'s, M, A, MR, R>(&mut self, name: impl AsRef<str>, method: M)
where
'lua: 's,
T: 'static,
M: Fn(&'lua Lua, &'s T, A) -> MR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
MR: Future<Output = Result<R>> + 's,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.async_meta_methods
.push((name.into(), Self::box_async_method(name, method)));
}
#[cfg(all(feature = "async", not(any(feature = "lua51", feature = "luau"))))]
fn add_async_meta_method_mut<'s, M, A, MR, R>(&mut self, name: impl AsRef<str>, method: M)
where
'lua: 's,
T: 'static,
M: Fn(&'lua Lua, &'s mut T, A) -> MR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
MR: Future<Output = Result<R>> + 's,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.async_meta_methods
.push((name.into(), Self::box_async_method_mut(name, method)));
}
fn add_meta_function<F, A, R>(&mut self, name: impl AsRef<str>, function: F)
where
F: Fn(&'lua Lua, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.meta_methods
.push((name.into(), Self::box_function(name, function)));
}
fn add_meta_function_mut<F, A, R>(&mut self, name: impl AsRef<str>, function: F)
where
F: FnMut(&'lua Lua, A) -> Result<R> + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.meta_methods
.push((name.into(), Self::box_function_mut(name, function)));
}
#[cfg(all(feature = "async", not(any(feature = "lua51", feature = "luau"))))]
fn add_async_meta_function<F, A, FR, R>(&mut self, name: impl AsRef<str>, function: F)
where
F: Fn(&'lua Lua, A) -> FR + MaybeSend + 'static,
A: FromLuaMulti<'lua>,
FR: Future<Output = Result<R>> + 'lua,
R: IntoLuaMulti<'lua>,
{
let name = name.as_ref();
self.async_meta_methods
.push((name.into(), Self::box_async_function(name, function)));
}
fn append_methods_from<S>(&mut self, other: UserDataRegistry<'lua, S>) {
self.methods.extend(other.methods);
#[cfg(feature = "async")]
self.async_methods.extend(other.async_methods);
self.meta_methods.extend(other.meta_methods);
#[cfg(feature = "async")]
self.async_meta_methods.extend(other.async_meta_methods);
}
}
#[inline]
unsafe fn get_userdata_ref<'a, T>(state: *mut ffi::lua_State, index: c_int) -> Result<Ref<'a, T>> {
(*get_userdata::<UserDataCell<T>>(state, index)).try_borrow()
}
#[inline]
unsafe fn get_userdata_mut<'a, T>(
state: *mut ffi::lua_State,
index: c_int,
) -> Result<RefMut<'a, T>> {
(*get_userdata::<UserDataCell<T>>(state, index)).try_borrow_mut()
}
macro_rules! lua_userdata_impl {
($type:ty) => {
impl<T: UserData + 'static> UserData for $type {
fn add_fields<'lua, F: UserDataFields<'lua, Self>>(fields: &mut F) {
let mut orig_fields = UserDataRegistry::new();
T::add_fields(&mut orig_fields);
fields.append_fields_from(orig_fields);
}
fn add_methods<'lua, M: UserDataMethods<'lua, Self>>(methods: &mut M) {
let mut orig_methods = UserDataRegistry::new();
T::add_methods(&mut orig_methods);
methods.append_methods_from(orig_methods);
}
}
};
}
#[cfg(not(feature = "send"))]
lua_userdata_impl!(Rc<T>);
#[cfg(not(feature = "send"))]
lua_userdata_impl!(Rc<RefCell<T>>);
lua_userdata_impl!(Arc<T>);
lua_userdata_impl!(Arc<Mutex<T>>);
lua_userdata_impl!(Arc<RwLock<T>>);
#[cfg(feature = "parking_lot")]
lua_userdata_impl!(Arc<parking_lot::Mutex<T>>);
#[cfg(feature = "parking_lot")]
lua_userdata_impl!(Arc<parking_lot::RwLock<T>>);
pub(crate) struct UserDataProxy<T>(pub(crate) PhantomData<T>);
lua_userdata_impl!(UserDataProxy<T>);